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MUSCULOSKELETAL SURGERY
Published in: MUSCULOSKELETAL SURGERY 1/2022

01-03-2022 | AC Joint Separation | Original Article

Coracoid tunnels in open and arthroscopic treatment of acromioclavicular dislocation: an experimental cadaveric study

Authors: L. Barberis, M. Faggiani, M. J. Calò, S. Marenco, G. Vasario, F. Castoldi

Published in: MUSCULOSKELETAL SURGERY | Issue 1/2022

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Abstract

Purpose

Treatment of acromioclavicular joint (ACJ) dislocation is not encoded uniquely. Type I and II injuries are usually treated conservatively, while types IV, V and VI surgically. Controversy still exists over the treatment of type III injuries. In the operative approach, there is no agreement on the best surgical technique. Our purpose is to compare the mini-open and arthroscopic approach focusing on the evaluation of the anatomical precision of the coracoid drilling.

Methods

This is a controlled laboratory study. Ten fresh-frozen cadaveric shoulders were randomly assigned to the two techniques in order to compare them. We performed essential surgical gestures to drill the tunnel using MINAR® System (mini-open) and Dog-Bone® (ARTHREX, arthroscopic). The anatomical specimens were then subjected to CT-scan investigation. We statistically evaluated the precision of these two techniques analyzing DICOM files using two parameters. Parameter 1 evaluates the tunnel entry area on the superior side of the coracoid. Parameter 2 describes the orientation of the tunnel.

Results

There are no statistically significant differences (95% confidence level) between arthroscopic and mini-open approach about the precision in the location of the coracoid hole, regarding the entry area (p = 1.00) and the orientation (p = 0.196).

Conclusion

The evidences collected enable the orthopedic surgeon to choose equally between the two techniques in the treatment of AC joint dislocation toward precision.
Literature
1.
Tauber M (2013) Management of acute acromioclavicular joint dislocations: current concepts. Archives of Orthop Trauma Surg 133(7):985–995CrossRef
2.
Spencer EE (2007) Treatment of grade III acromioclavicular joint injuries. Clin Orthop Relat Res 455:38–44CrossRef
3.
Modi CS, Beazley J, Zywiel MG, Lawrence TM, Veillette CJH (2013) Controversies relating to the management of acromioclavicular joint dislocations. Bone Jt J 95:1595–1602CrossRef
4.
Nordqvist A, Petersson CJ (1995) Incidence and causes of shoulder girdle injuries in an urban population. J Shoulder Elb Surg 4:107–112CrossRef
5.
Jacobs B, Wade PA (1966) Acromioclavicular-joint injury. An end-result study. J Bone Joint Surg Am 48:475–486CrossRef
6.
Webb J, Bannister G (1992) Acromioclavicular disruption in first class rugby players. Br J Sports Med 26:247–248CrossRef
7.
8.
Mouhsine E, Garofalo R, Crevoisier X, Farron A (2003) Grade I and II acromioclavicular dislocations: results of conservative treatment. J Shoulder Elb Surg 12:599–602CrossRef
9.
De Carli A et al (2015) Acromioclavicular third-degree dislocation: surgical treatment in acute cases. J Orthop Surg Res 10:13CrossRef
10.
11.
Ceccarelli E et al (2008) Treatment of acute grade III acromioclavicular dislocation: a lack of evidence. J Orthop Traumatol 9:105–108CrossRef
12.
Cho C-H et al (2014) Reliability of the classification and treatment of dislocations of the acromioclavicular joint. J Shoulder Elbow Surg 23:665–670CrossRef
13.
Coale RM, Hollister SJ, Dines JS, Allen AA, Bedi A (2013) Anatomic considerations of transclavicular-transcoracoid drilling for coracoclavicular ligament reconstruction. J Shoulder Elb Surg 22:137–144CrossRef
14.
Wang LC et al (2015) Biomechanical Evaluation of Coracoid Tunnel Size and Location for Coracoclavicular Ligament Reconstruction. Arthrosc J Arthrosc Relat Surg 31:825–830CrossRef
15.
Nowak MD, Sc D, Arciero RA, Mazzocca AD (2012) Biomechanical Evaluation of Effect of Coracoid Tunnel Acromioclavicular Joint Dislocations. YJARS 28:1230–1236
16.
Mara G (2011) Surgical treatment of acromioclavicular dislocation with minimally invasive surgery 25:359–365
17.
Petersen W, Wellmann M, Rosslenbroich S, Zantop T (2010) Minimally invasive acromioclavicular joint reconstruction (MINAR). Oper Orthopädie und Traumatol 22:52–61CrossRef
18.
Woodmass J et al (2015) Complications following arthroscopic fixation of acromioclavicular separations: a systematic review of the literature. Open Access J Sport Med 6:97
19.
Luis GE, Yong C-K, Singh DA, Sengupta S, Choon DS (2007) Acromioclavicular joint dislocation: a comparative biomechanical study of the palmaris-longus tendon graft reconstruction with other augmentative methods in cadaveric models. J Orthop Surg Res 2:22CrossRef
20.
Faggiani M, Vasario GP, Mattei L, Calò MJ, Castoldi F (2016) Comparing mini-open and arthroscopic acromioclavicular joint repair: functional results and return to sport. Musculoskelet Surg 100:187–191CrossRef
21.
Rios CG, Arciero RA, Mazzocca AD (2007) Anatomy of the Clavicle and Coracoid process for reconstruction of the coracoclavicular ligaments. Am J Sports Med 35:811–817CrossRef
22.
Defoort S, Verborgt O (2010) Functional and radiological outcome after arthroscopic and open acromioclavicular stabilization using a double-button fixation system. Acta Orthop Belg 76:585–591PubMed
23.
Taft TN, Wilson FC, Oglesby JW (1987) Dislocation of the acromioclavicular joint. An end-result study. J Bone Jt Surg Am 69:1045–1051CrossRef
Metadata
Title
Coracoid tunnels in open and arthroscopic treatment of acromioclavicular dislocation: an experimental cadaveric study
Authors
L. Barberis
M. Faggiani
M. J. Calò
S. Marenco
G. Vasario
F. Castoldi
Publication date
01-03-2022
Publisher
Springer Milan
Published in
MUSCULOSKELETAL SURGERY / Issue 1/2022
Print ISSN: 2035-5106
Electronic ISSN: 2035-5114
DOI
https://doi.org/10.1007/s12306-020-00665-9

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